Passive preload and capstan drive for surgical instruments

What is claimed is: 1 . A surgical instrument comprising: a shaft; a member mounted at a distal end of the shaft, the member being mounted to permit movement of the member relative to the shaft; a mechanism attached to a proximal end of the shaft, the mechanism including a first capstan and a first passive preload system, wherein the first capstan is free to roll and has a coupling through which a motor can attach to and rotate the first capstan; and a first tendon running down the shaft and wrapping around the first capstan, the first tendon having a first end attached to the member and a second end attached to the first passive preload system. 2 . The instrument of claim 1 , wherein the first passive preload system comprises a spring element that works through compression or extension to apply force to the tendon. 3 . The instrument of claim 2 , wherein the spring element is selected from a group consisting of a linear spring, a coil spring, and a leaf spring. 4 . The instrument of claim 1 , wherein the first passive preload system comprises a constant-force spring. 5 . The instrument of claim 1 , wherein the first passive preload system comprises a variable radius pulley and a spring element. 6 . The instrument of claim 1 , wherein the first passive preload system comprises a compliant member that works through compression or extension to apply force to the tendon. 7 . The instrument of claim 6 , wherein the compliant member is selected from a group consisting of a cantilever beam and elastic bands. 8 . The instrument of claim 1 , further comprising: a first jointed member that is mechanically constrained to one degree of freedom of motion with respect to a previous member; a second passive preload system in the mechanism; a second capstan in the mechanism, wherein the second capstan is free to roll and has a coupling through which a second motor can attach to and rotate the second capstan; and a second tendon running down the shaft and wrapping around the second capstan, the second tendon having a first end attached to the member and a second end attached to the second passive preload system; wherein the first and second tendons act on the member to produce motion in opposing directions. 9 . The instrument of claim 1 , wherein the member is mechanically constrained to two degree of freedom of motion with respect to a previous member; and wherein the instrument further comprises: a second capstan; a second passive preload system; a second tendon running down the shaft and wrapping around the second capstan, the second tendon having a first end attached to the member and a second end attached to the second passive preload system; a third capstan; a third passive preload system; and a third tendon running down the shaft and wrapping around the third capstan, the third tendon having a first end attached to the member and a second end attached to the third passive preload system, wherein the first and second tendons act on the member to produce bidirectional motion in a first degree of freedom of the member and the first and third tendons act on the member to produce bidirectional motion in a second degree of freedom of the member. 10 . The instrument of claim 1 , wherein the shaft is flexible. 11 . The instrument of claim 1 , further comprising a sheath attached to the mechanism and extending through the shaft, wherein the first tendon traverses the shaft inside the sheath. 12 . The instrument of claim 1 , wherein a rotation axis of the first capstan is perpendicular to the shaft. 13 . The instrument of claim 1 , wherein a rotation axis of the first capstan is parallel to the shaft. 14 . The instrument of claim 1 , wherein the coupling of the first capstan comprises a detachable connection mechanism including a spring loaded projection that is shaped to fit into a slot in a motor pinion. 15 . The instrument of claim 1 , wherein the coupling of the first capstan comprises a bore sized to provide a frictional connection to a motor pinion inserted in the bore, wherein the first capstan is sufficiently flexible that tightening of the first tendon around the capstan increases the friction between the capstan and the pinion. 16 . A robotic surgical system comprising: a docking port containing a first drive motor; and a first instrument including: a shaft; a member mounted at a distal end of the shaft, the member being mounted to permit movement of the member relative to the shaft; a mechanism attached to a proximal end of the shaft, the mechanism including a first capstan and a first passive preload system, wherein the first capstan has a coupling through which the first drive motor attaches to and is able to rotate the first capstan; and a first tendon running down the shaft and wrapping around the first capstan, the first tendon having a first end attached to the member and a second end attached to the first passive preload system. 17 . The system of claim 16 , wherein: the docking port further comprises a second drive motor; and the first instrument further comprises a joint that permits a first degree of freedom of motion of the member; a second passive preload system in the mechanism; a second capstan in the mechanism, wherein the second capstan has a coupling through which the second drive motor attaches to and is able to rotate the second capstan; and a second tendon running down the shaft and wrapping around the second capstan, the second tendon having a first end attached to the member and a second end attached to the second passive preload system; wherein the first and second tendons act to move the member in opposite directions in the first degree of freedom of motion of the member. 18 . The system of claim 17 , further comprising a computer system that executes a program implementing a process for operating the first instrument, wherein the process includes operating the first drive motor to apply torque to the first capstan to pull in the first tendon while at the same time permitting the second capstan to rotate freely. 19 . The system of claim 18 , wherein the first instrument further comprises a sensor that measures a position of the member, the computer system using information from the sensor as feedback for control of the first and second drive motors when moving the member. 20 . The system of claim 19 , wherein the computer systems uses the information from the sensor to choose the torque that the first drive motor applies to the first capstan.